Tag Archives: CDP

A renewable resource is a natural resource with the ability to reproduce through biological or natural processes and replenished with the passage of time. Renewable resources are part of our natural environment and form our eco-system. One such resource is water. Water is able to regenerate and is part of our natural environment. However water may only be considered a renewable resource when carefully controlled usage, treatment, and release are followed. (www.en.wikipedia.org, 2012)

UN research indicates that we are facing a serious water scarcity problem.

Approximately 700 million people in 43 countries suffer as a result of water scarcity.

By 2025, 1.8 billion people will be living in countries or regions with absolute water scarcity, and two-thirds of the world’s population could be living under water stressed conditions.

With the existing climate change scenario, almost half the world’s population will be living in areas of high water stress by 2030, including between 75 million and 250 million people in Africa. In addition, water scarcity in some arid and semi-arid places will displace between 24 million and 700 million people.

Sub-Saharan Africa has the largest number of water-stressed countries of any region

The reality is that water in our current societal context is not really renewable because we have compromised the ability of the water resources to regenerate. Water affects all of us all the time and in every way possible. For the purposes of readers (assuming that most readers/ people with access to the internet of this post have easy and regular access to potable and piped water); water scarcity doesn’t just impact on how many baths or showers we take or how often we flush the toilet or whether we drink bottled or tap water or if you have a low flow shower head etc

Water is an integral and critical component of the environment and is therefore fundamentally important for the survival of humankind and society as we know it (not meaning to be alarmist…. but it is true).

“Water is one of the primary barometers of climate change: A rise in sea-levels, flooding, and extreme storms combined with general water stress and more severe and frequent droughts will escalate crises in municipal infrastructure, requiring continual upgrades for water purification, stormwater drainage, and sewage treatment, all of which will dramatically raise the price of water at the retail level.” ( Bond, 2011)

It has been predicted by the Water Resources Group that the global demand for water will outstrip supply by 40% by 2030 (CDP, 2011), this indicates that something is very wrong with the way that we are using our water resource considering the fact that water, despite being a finite resource is a renewable resource. Water use has increased exponentially and has been driven by increasing water demand from industrialization, economic development and population growth. This has resulted in increasing competition for our water resources, which has resulted in increased tensions and challenges around the management, allocation and sustainable use of water resources.

In many instances the water needs of large-scale agriculture and industry end up competing for the water that essential for the sustaining local communities and ecosystems. Ecosystems are an essential component of the hydrological cycle as they are not only reliant on water for survival but also provide a key role in water purification and provision, thus ecosystems maybe seen as nature’s natural “green” infrastructure and service providers. In addition ecosystems also provide us with the very important ability to adapt to climate change impacts and environmental degradation. It is therefore obvious that we need healthy and functioning ecosystems in order to ensure that we have a sustainable water source.

We all know that we need water to survive however the fact that water contributes in some way to the production and use of everything we consume and use is often overlooked. Everything that forms part of our lifestyle and society has a virtual water value. Virtual water refers, in the context of trade, to the water used in the production of a good or service (www.en.wikipedia.org, 2012). It should however be noted that specific measure of virtual water can be more or less depending on regional context, climatic conditions and agricultural practice. The virtual-water content of a product, commodity, good or service may be defined as the volume of freshwater used to produce the product, measured at the place where the product was actually produced”. (www.en.wikipedia.org, 2012). This definition is important as many of the goods and service produced in water poor areas are consumed in water rich areas, resulting in the true water value not being fully considered or accounted for by the consumers.

For example, a liter of potable water in “water-rich” Scandinavia is unlikely to be as precious/valuable as a liter of potable water in water-scarce Namibia (CDP 2011). Consequently the 70 liters of water it takes to make 100 grams of apple may have more value in Namibia than it does in Scandinavia. This combined with the fact that a large proportion of the food you eat, the clothes you wear and the goods and services that you consume often not produced locally increased the virtual water value of the product.

An example of this would be 100% organic cotton t-shirt has a virtual water value 2700 liters! The 2700 liters mean a great deal more to someone living in an arid environment and having to draw water from a communal well than it does for someone living an a water rich area who has access to piped potable water.

Examples of virtual water values are:

2400 liters of water to make 100 grams of chocolate.

70 liters of water to make 100 grams of apple

5000 liters of water to make 500 grams of paper

2499 liters of water to make 150 grams of burger

4650 liters of water to make 300 grams of beef (about one steak)

(www.virtualwater.eu)

Our economy and society are dependent on water and the virtual water associated with the production of goods and services. If the cost of water went up so would the cost of all our goods and services. How we use and pollute our water is therefore a critical issue especially since the amount of water that is clean and drinkable is steadily decreasing due to pollution (UNEP WHO 2012) arising from our unsustainable use of water and the inability of ecosystems to effectively purify water due to environmental degradation.

In the UK, for example, “it has been estimated that two-thirds of all the water that its population of 60 million people consume actually comes embedded within the imported food they eat, the clothes they wear and industrial or chemical goods they purchase. The result is that local water management issues affecting disadvantaged communities around the world may be significantly exacerbated and influenced by consumption patterns in more affluent countries.(CDP 2011)

How are we, a society that is entirely dependent on water, who’s wasteful and inefficient use is the reason we are in this problem meant to respond to the water resource challenges? Especially as the water problem will undoubtedly result in associated environmental, economic, political and social problems?

Simply stated we need to change the manner in which we consume and produce goods and services. As consumers we need to question and refuse to consume products and services with high virtual water values. Also we need to recognize that not everything is a necessity and we can do without some/ a great many of the extras and luxuries that we consume.

We can’t change our habits overnight (though it would be great if we did….), instead we need to make a difference where we can and build up to making the big changes that we need to make in our consumption and production patterns.

A few pointers to help you reduce your water and virtual water consumption:

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Definition: Ecocred

Eco-cred

In short, “Ecological Credibility”. One gains eco-cred by exhibiting behaviors that suggest a commitment to the environment. Driving a hybrid car gives you eco-cred. Riding a bicycle to work gives you MAJOR eco-cred. Recycling cans, plastic and newspaper gives you very little eco-cred, but recycling your neighbor’s trash by digging through it to find recyclable products gains you lots of eco-cred.

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